System and method for mounting blown fiber tubes to a housing

ABSTRACT

An apparatus ( 10 ) for mounting blown fiber tubes ( 20 ) includes a main housing ( 40 ) mountable to an end ( 32 ) of a flex tube ( 30 ), an outer ring ( 50 ) positioned at an end ( 42 ) of the main housing ( 40 ), and an inner ring ( 60 ) positioned adjacent to and within the outer ring ( 50 ) wherein the blown fiber tubes ( 20 ) are positioned about an outer periphery ( 62 ) of the inner ring ( 60 ). A trigger ( 70 ) pushes the inner ring ( 60 ) to compress the blown fiber tubes ( 20 ) between the inner ring ( 60 ) and the outer ring ( 50 ). The outer ring ( 500  and the inner ring ( 60 ) each include a plurality of spaced pockets ( 52, 68 ) each sized for receipt of a blown fiber tube ( 20 ). The trigger ( 70 ) includes a threaded member ( 80 ) which pushes the inner ring ( 60 ) outwardly. In one embodiment, portions ( 64 ) of the inner ring ( 60 ) separate during activation and press against the blown fiber tubes ( 20 ) to compress the blown fiber tubes ( 20 ) against the outer ring ( 50 ). A spring ( 496 ) may be added to push on the inner ring ( 60 ). Anti-rotation and lock features are provided for the compression, sealing and fixation mechanisms.

TECHNICAL FIELD

The present invention relates to systems and methods for mounting blown fiber tubes to a housing, such as a housing mounted to a port of a telecommunications enclosure.

BACKGROUND OF THE INVENTION

Cables enter telecommunications boxes, and enclosures, or other devices through ports or other openings. Some telecommunications systems include tubes which are passed into the telecommunications devices for later use and installation of fibers through the tubes in an air blown fiber installation process. Typically, these tubes are provided within a conduit or duct. There is a need to fix the tubes relative to the port.

SUMMARY OF THE INVENTION

One aspect of the present invention relates to an apparatus for mounting blown fiber tubes to a housing including a main housing mountable to an end of a flex tube, and a mechanism for clamping the tubes to the main housing. The mechanism includes an outer ring positioned at an end of the main housing, and a inner ring positioned adjacent to and within the outer ring wherein the blown fiber tubes are positioned about an outer periphery of the inner ring. A trigger pushes the inner ring to compress the blown fiber tubes between the inner ring and the outer ring.

A further aspect of the present invention relates to providing the outer ring with a plurality of spaced pockets sized to receive the blown fiber tubes.

A still further aspect of the present invention relates to providing the inner ring with a plurality of spaced pockets sized to receive the blown fiber tubes.

In one preferred embodiment, the pockets of the inner ring include at least one protrusion.

In one preferred embodiment, the inner ring includes radial slots between the plurality of spaced pockets.

In a still further preferred embodiment, the inner ring includes outer portions which separate from an inner portion when the trigger moves.

One preferred trigger includes first and second threaded members, wherein the first threaded member includes a surface angled with respect to a longitudinal axis of the apparatus, and the inner ring includes a mating angled surface which pushes the inner ring outwardly.

Another preferred trigger includes a first slideable member which includes an angled surface to mate with the inner ring. A first threaded member is threadably mounted to a second threaded member. A spring is positioned between the second threaded member and the first slideable member.

A preferred arrangement includes mounting the main housing to a port for passing cables through the blown fiber tubes through the port. In one preferred arrangement, the port is part of the enclosure for passing cable through the blown fiber tubes into an interior of the enclosure.

A further aspect of the present invention relates to positioning a plurality of blown fiber tubes about an outer periphery of an inner member, and expanding the inner member outwardly to compress the blown fiber tubes against an outer member.

One preferred method includes providing the inner member with outer portions which separate during activation of trigger to press outwardly against the blown fiber tubes.

A preferred method includes providing pockets for the inner and outer members which are sized to receive to individually receive a blown fiber tube.

Another preferred method includes providing radial slots between the pockets.

One preferred implementation includes providing anti-rotation features between the activation elements for activating the seal and fixation of the tubes.

A further aspect of the present invention includes a locking mechanism between the activation elements for activating the seal and fixation of the tubes.

A further aspect of the present invention includes a trigger which clicks into place to seal and fixate the tubes with a clear indication to the user when the sealing and fixation has occurred.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a flex tube mounted to an enclosure at a port wherein the mounting arrangement includes a fixation mechanism for mounting the blown fiber tubes contained within the flex port to a housing mounted to the port;

FIG. 2 is a perspective view of the apparatus for mounting blown fiber tubes to a housing which is mountable to the port of FIG. 1;

FIG. 3 is an exploded view of the device shown in FIG. 2;

FIG. 4 is a cross-sectional exploded view of the view shown in FIG. 3;

FIG. 5 is a further cross-sectional view of the inner and outer members, the trigger mechanism, the seal, and the blown fiber tubes;

FIG. 6 is a further cross-sectional side view showing the mechanism activated for fixing the blown fiber tubes to the main housing for attachment to a port of an enclosure;

FIG. 7 is a perspective view of the outer ring;

FIG. 8 is a perspective view of the inner ring;

FIG. 9 is an end view of the inner ring;

FIG. 10 is a perspective view of an alternative embodiment of an inner ring;

FIG. 11 is a perspective view of an alternative fixation mechanism for mounting the blown fiber tubes contained within the flex port to a housing mounted to the port;

FIG. 12 is a cross-sectional side view of the fixation mechanism of FIG. 11;

FIG. 13 shows an exploded view of a fixation mechanism in accordance with another embodiment of the present invention;

FIG. 14 shows another exploded view of the fixation mechanism of FIG. 13;

FIG. 15 shows another exploded view of the fixation mechanism of FIG. 13;

FIG. 15 a shows another exploded view of the fixation mechanism of FIG. 13;

FIG. 16 shows another exploded view of the fixation mechanism of FIG. 13;

FIGS. 17 and 18 show the tube fixation system of FIGS. 13-16 assembled together; and

FIGS. 19-23 show a further alternative embodiment of a fixation mechanism.

DETAILED DESCRIPTION

Referring now to FIGS. 1-9, an apparatus 10 is shown for mounting blown fiber tubes 20 contained within a flex tube 30 to a main housing 40 which is mountable to a port 100 of an enclosure 120. Fiber tubes 20 extend past an end 32 of flex tube 30. Main housing 40 can be mounted to other structures instead of enclosure 120, or other ports 100.

Apparatus 10 includes an outer ring 50 with concave pockets 52 for receiving a blown fiber tube 20 in each pocket. Outer ring 50 includes a base 54 and an outer lip 56. A center hole 58 allows receipt a trigger 70. Pockets 52 and outer lip 56 form holes 59 through base 54.

Inner ring 60 includes an outer periphery 62 and includes a plurality of concave pockets 68 each sized to receive a blown fiber tube. Inner ring 60 also includes a center hole 69 for receipt of the trigger 70.

In the preferred embodiment, as the trigger 70 is activated, inner ring 60 moves outwardly to compress the blown fiber tubes 20 against outer ring 50.

In one preferred implementation, inner ring 60 includes outer portion 64 which separate from inner portion 66 along break lines 72.

Trigger 70 includes a socket 80 and a bolt 82 which are threadably engaged with one another. During activation, socket 80 is rotated via head 84 which draws bolts 82 further into socket 80. Mating angled surfaces 90, 94 cause inner ring 60 to move outwardly and to compress against a seal 130, such as one made from rubber or silicone. Seal 130 seals around tubes 20. Seal 130 is disk shaped and includes a plurality of holes 132 for the tubes 20.

Protrusions 96 in pockets 68 improve fixation of apparatus 10 to blown fiber tubes 20. Slots 98 and break lines 72 allow for outer portions 64 to move outwardly toward outer ring 50 during use.

A C-clip 126 mounts apparatus 10 to port 100 once apparatus is inserted into port 100. C-clip 126 is inserted into groove 128 to retain apparatus 10 in port 100.

An O-ring 134 can be provided to seal an exterior of apparatus 10 at port 100. A flange 150 on apparatus 10 keeps main housing 40 from being inserted too far into port 100.

Bolt 82 is retained by inner housing portion 140 of main housing 40 from turning. Preferably, inner housing portion 140 also retains bolt 82 from axial movement before attachment of socket 80 of trigger 70.

Referring now to FIG. 10, an alternative embodiment of an inner ring 160 is shown including outer pockets 168. A dome shaped middle 170 and slots 198 allow for pockets 168 to move outwardly as the dome shaped middle 170 is compressed.

During operation, inner ring 60, 160 is caused to move outward along its outer periphery to compress against blown fiber tubes 20.

Inner ring 60, 160, outer ring 50, trigger 70 and housing 40 can be made from molded plastic parts. Seal 130 is made from a softer material.

Apparatus 10 includes a flex tube seal and attachment arrangement 200 which attaches main housing 40 to flex tube 30 and also provides a sealing function.

Referring now to FIGS. 11 and 12, an apparatus 310 is shown including a main housing 340 mounted to an end 32 of flex tube 30. Main housing 340 includes an inner seal ring 360 which seals against an outside of flex tube 30. A clip 380 mounts housing 340 to flex tube 30.

A trigger 470 includes a first member 480 which engages inner ring 60 with an angled surface 94. A second member 490 is threadably mounted to a bolt 482. First member 480 is slideably mounted on bolt 482. A spring 496 is positioned between first member 480 and second member 490, around bolt 482. To activate trigger 470, second member 490 is rotated toward first member 480. Spring 496 applies pressure or a biasing force to first member 480. With such a construction, a continual force may be better maintained against blown fiber tubes 20 during use.

Referring now to FIGS. 13-18, an apparatus 510 is shown for fixating tubes and includes an outer flange 520, a sealing disk 530, an inner flange 540, a fixation disk 550, a cone 560, and a trigger 570.

Apparatus 510 includes anti-rotation features between outer flange 520, and inner flange 540, fixation disk 550, and cone 560. Outer flange 520 includes a rail 524 which is received in slot 542 of inner flange 540 and slot 552 of fixation disk 550. Rail 524 is also received in slot 562 of cone 560. Rail 524 also defines a ramp 526 and an axial slot 528. Trigger 570 includes a projection 572. Trigger 570 threadably mounts to shaft 580. Projection 572 follows ramp 526 and falls into slot 528, thereby locking trigger 570 to outer flange 520.

Trigger 570 is threadedly mounted to outer flange 520. Trigger 570 pushes cone 560 into fixation disk 550 to activate the disk. Sealing disk 530 is also activated through the movement of trigger 570.

Referring now to FIGS. 19-23, an alternative apparatus 610 includes some similar features to apparatus 510. Alternative locking mechanism includes ratchet shaped teeth 630 on an end face 640 of cone 650 with mating ratchet shaped teeth 660 on trigger 670.

Apparatus 610 is shown mounted to housing 590. Apparatus 510 threadably mounts to a similar housing 590.

Each of apparatus 510, 610 includes anti-rotation features when mounted to a circular port of an enclosure. As shown, anti-rotation features include flats 700 and tabs 702.

PARTS LIST

-   10 Apparatus -   20 Blown fiber tubes -   30 Flex tube -   32 End of flex tube -   40 Main housing -   42 End -   50 Outer ring -   52 Pockets -   54 Base -   56 Lip -   58 Center hole -   60 Inner ring -   62 Outer periphery -   64 Outer portions -   66 Inner portions -   68 Pockets -   70 Trigger -   72 Break lines -   80 Socket -   82 Bolt -   84 Head -   90 Angled surface -   94 Angled surface -   96 Protrusion -   98 Slot -   100 Port -   120 Enclosure -   126 C-clip -   128 Groove -   130 Seal -   132 Holes -   134 O-ring -   140 Inner housing portion -   150 Flange -   160 Inner ring -   168 Pockets -   170 Dome shaped middle -   198 Slots -   200 Flex tube seal and attachment arrangement -   310 Apparatus -   340 Main housing -   360 Inner seal ring -   380 Clip -   470 Trigger -   480 First member -   482 Bolt -   490 Second member -   496 Spring -   510 Apparatus -   520 Outer flange -   524 Rail -   526 Ramp -   528 Slot -   530 Sealing disk -   540 Inner flange -   542 Slot -   550 Fixation disk -   552 Slot -   560 Cone -   562 Slot -   570 Trigger -   572 Projection -   580 Shaft -   610 Apparatus -   630 Teeth -   640 End face -   650 Cone -   660 Teeth -   670 Cone -   690 Housing -   700 Flats -   702 Projection 

1. An apparatus (10, 310, 510, 610) for mounting blown fiber tubes (20) to a main housing (40) comprising: a main housing (40) mountable to an end (32) of a flex tube (30); characterized in that: an outer ring (50) is positioned at an end (42) of the main housing (40); an inner ring (60) is positioned adjacent to and within the outer ring (50), wherein the blown fiber tubes (20) are positioned about an outer periphery (62) of the inner ring (60); a trigger (70, 470, 570, 670) which pushes the inner ring (60) to compress the blown fiber tubes (20) between the inner ring (60) and the outer ring (50).
 2. The apparatus of claim 1, wherein the outer ring (50) includes a plurality of spaced pockets (52).
 3. The apparatus of claims 1 and 2, wherein the inner ring (60) includes a plurality of spaced pockets (68).
 4. The apparatus of claim 3, wherein the plurality of spaced pockets (68) of the inner ring (60) include at least one protrusion (96).
 5. The apparatus of claims 3 and 4, wherein the inner ring (60) includes radial slots (98) between the plurality of spaced pockets (68) of the inner ring (60).
 6. The apparatus of claims 1-5, wherein the inner ring (60) includes outer portions (64) which separate from an inner portion (66) when the trigger (70,
 470. 570, 670) moves.
 7. The apparatus of claims 1-6, wherein the trigger (70) includes first and second threaded members (80, 82), and wherein the first threaded member (80) includes a surface angled (94) with respect to a longitudinal axis of apparatus (10), and the inner ring (60) includes a mating angled surface (90) which pushes the inner ring (60) outwardly.
 8. The apparatus of claims 1-6, wherein the trigger (470) includes a first member (480) with an angled surface (94) with respect to a longitudinal axis of apparatus (310), and the inner ring (60) includes a mating angled surface (90), which pushes the inner ring (60) outwardly, wherein the trigger (470) includes a second member (490) threadably mounted to a third member (482), and a spring (496) positioned between the first member (480) and the second member (490), wherein the second member pushes on the spring (496) which pushes on the first member (480).
 9. The apparatus of claims 1-8, wherein the apparatus (10, 310, 510, 610) is mounted to a port (100) for passing cables through the blown fiber tubes (20).
 10. The apparatus of claim 9, wherein the apparatus (10, 310, 510, 610) is mounted to a port (100) in an enclosure (120) for passing cables through the blown fiber tubes (20) into an interior of enclosure (120).
 11. The apparatus of claims 1-10, further comprising a rotation limiting device to prevent relative rotation between the compression elements of the seal and fixation features.
 12. The apparatus of claims 1-11, further comprising a lock feature between the trigger and another portion of the apparatus to prevent the trigger from releasing.
 13. The apparatus of claims 1-12, further comprising a spring (170, 496) associated with trigger (70, 470).
 14. A method for mounting blown fiber tubes (20) to a main housing (40) comprising: positioning a plurality of blown fiber tubes (20) about an outer periphery (62) of an inner ring (60) of a main housing (40), and expanding the inner ring (60) outwardly to compress the blown fiber tubes (20) against an outer ring (50) of the main housing (40).
 15. The method of claim 14, comprising providing pockets (52, 68) for the outer and inner rings (50, 60) which are sized to receive to individually receive a blown fiber tube (20).
 16. The method of claims 14 and 15, comprising providing the inner ring (60) with outer portions (64) which separate during activation of a trigger (70, 470, 570, 670) to press outwardly against the blown fiber tubes (20).
 17. The method of claims 14-16, comprising providing the trigger (70) with threaded members (80, 82), wherein activation of the trigger (70) presses the inner ring (60) outwardly against the blown fiber tubes (20), wherein one of the threaded members (80, 82) and the inner ring (60) each include mating angled surfaces (90, 94) to cause the inner ring (60) to move outwardly.
 18. The method of claims 14-17, comprising providing the trigger (70, 470) with a spring bias.
 19. The method of claims 14-18, comprising a rotation limiting device to prevent relative rotation between the compression elements of the seal and fixation features.
 20. The method of claims 14-19, comprising a lock feature between the trigger and another portion of the apparatus to prevent the trigger from releasing.
 21. An apparatus (10, 310, 510, 610) for mounting fiber tubes (20) to a main housing (40) comprising: a main housing (40) mountable to a portion (32) of a conduit (30); characterized in that: an outer ring (50) is positioned at an end (42) of the main housing (40); an inner ring (60) is positioned adjacent to and within the outer ring (50), wherein the fiber tubes (20) are positioned about an outer periphery (62) of the inner ring (60); a trigger (70, 470, 570, 670) which pushes the inner ring (60) to compress the fiber tubes (20) between the inner ring (60) and the outer ring (50); wherein the outer ring (50) includes a plurality of spaced pockets (52); wherein the inner ring (60) includes a plurality of spaced pockets (68); wherein the inner ring (60) includes radial slots (98) between the plurality of spaced pockets (68) of the inner ring (60); wherein the inner ring (60) includes outer portions (64) which separate from an inner portion (66) when the trigger (70, 470, 570, 670) moves; wherein the trigger (70, 470, 570, 670) includes first and second threaded members (80, 82), and wherein the first threaded member (80) includes a surface angled (94) with respect to a longitudinal axis of apparatus (10), and the inner ring (60) includes a mating angled surface (90) which pushes the inner ring (60) outwardly.
 22. The apparatus of claim 21, wherein the plurality of spaced pockets (68) of the inner ring (60) include at least one protrusion (96).
 23. The apparatus of claims 21 and 22, wherein the apparatus (10, 310, 510, 610) is mounted to a port (100) for passing cables through the fiber tubes (20).
 24. The apparatus of claim 21-23, wherein the apparatus (10, 310, 510, 610) is mounted to a port (100) in an enclosure (120) for passing cables through the fiber tubes (20) into an interior of enclosure (120).
 25. The apparatus of claims 21-24, further comprising a rotation limiting device to prevent relative rotation between the compression elements of the seal and fixation features.
 26. The apparatus of claims 21-25, further comprising a lock feature between the trigger and another portion of the apparatus to prevent the trigger from releasing.
 27. A method for mounting fiber tubes (20) to a main housing (40) comprising: positioning a plurality of fiber tubes (20) about an outer periphery (62) of an inner ring (60) of a main housing (40), and expanding the inner ring (60) outwardly to compress the fiber tubes (20) against an outer ring (50) of the main housing (40) providing the inner ring (60) with outer portions (64) which separate during activation of a trigger (70, 470, 570, 670) to press outwardly against the fiber tubes (20); providing the trigger (70, 470, 570, 670) with threaded members (80, 82), wherein activating the trigger (70) presses the inner ring (60) outwardly against the fiber tubes (20), wherein one of the threaded members (80, 82) and the inner ring (60) each include mating angled surfaces (90, 94) to cause the inner ring (60) to move outwardly.
 28. The method of claim 27, comprising providing pockets (52, 68) for the outer and inner rings (50, 60) which are sized to receive to individually receive a fiber tube (20).
 29. The method of claims 27 and 28, comprising a rotation limiting device to prevent relative rotation between the compression elements of the seal and fixation features.
 30. The method of claims 27-29, comprising a lock feature between the trigger and another portion of the apparatus to prevent the trigger from releasing. 